SC-190 Bluetooth speaker Test Report 1 Sound Crush

Sound Crush Bluetooth speaker

Shenzhen Huaxia Testing Technology Co., Ltd
1F., Block A of Tongsheng Technology Building, Huahui Road, Dalang Street, Longhua District,
Shenzhen, China
Telephone: +86-755-26648640
Fax: +86-755-26648637
Website: www.cqa-cert.com Report Template Version: V03
Report Template Revision Date: Mar.1st, 2017
FCC Test Report
* In the configuration tested, the EUT complied with the standards specified above.
The test report is effective only with both signature and specialized stamp, The result(s) shown in this report refer only to
the sample(s) tested. Without written approval of CQA, this report can’t be reproduced except in full.
Report No. : CQASZ20180700073E-01
Applicant: Sound Crush Company Limited
Address of Applicant: Bldg 8, Xiangyuer Ind Park, LongSheng Rd, Longgang, Shenzhen, China
Manufacturer: Sound Crush Company Limited
Address of Manufacturer: Bldg 8, Xiangyuer Ind Park, LongSheng Rd, Longgang, Shenzhen, China
Factory: Sound Crush Company Limited
Address of Factory: Bldg 8, Xiangyuer Ind Park, LongSheng Rd, Longgang, Shenzhen, China
Equipment Under Test (EUT):
Product: Bluetooth speaker
Model No.: SC-190, EL161
Test Model No.: SC-190
Brand Name: N/A
FCC ID: 2ABPR-SC-190
Standards: 47 CFR Part 15, Subpart C
Date of Test: 2018-07-23 to 2018-07-26
Date of Issue: 2018-07-26
Test Result : PASS*
Tested By
˖
˖
(Martin Lee)
Reviewed By:
( Jack Ai)
Approved By:
( Jack Ai)
(
M
artin Le
e
)
e
(
J
ack A
i
)
ii
(
J
ack A
i
)
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1 Version
Revision History Of Report
Report No. Version Description Issue Date
CQASZ20180700073E-01 Rev.01 Initial report 2018-07-26
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2 Test Summary
Test Item Test Requirement Test method Result
Antenna Requirement 47 CFR Part 15, Subpart C Section
15.203/15.247 (c) ANSI C63.10 (2013) PASS
AC Power Line Conducted
Emission
47 CFR Part 15, Subpart C Section
15.207 ANSI C63.10 (2013) PASS
Conducted Peak Output
Power
47 CFR Part 15, Subpart C Section
15.247 (b)(1) ANSI C63.10 (2013) PASS
20dB Occupied Bandwidth 47 CFR Part 15, Subpart C Section
15.247 (a)(1) ANSI C63.10 (2013) PASS
Carrier Frequencies
Separation
47 CFR Part 15, Subpart C Section
15.247 (a)(1) ANSI C63.10 (2013) PASS
Hopping Channel Number 47 CFR Part 15, Subpart C Section
15.247 (a)(1) ANSI C63.10 (2013) PASS
Dwell Time 47 CFR Part 15, Subpart C Section
15.247 (a)(1) ANSI C63.10 (2013) PASS
Pseudorandom Frequency
Hopping Sequence
47 CFR Part 15, Subpart C Section
15.247(b)(4)&TCB Exclusion List
(7 July 2002)
ANSI C63.10 (2013) PASS
Band-edge for RF
Conducted Emissions
47 CFR Part 15, Subpart C Section
15.247(d) ANSI C63.10 (2013) PASS
RF Conducted Spurious
Emissions
47 CFR Part 15, Subpart C Section
15.247(d) ANSI C63.10 (2013) PASS
Radiated Spurious
emissions
47 CFR Part 15, Subpart C Section
15.205/15.209 ANSI C63.10 (2013) PASS
Restricted bands around
fundamental frequency
(Radiated Emission)
47 CFR Part 15, Subpart C Section
15.205/15.209 ANSI C63.10 (2013) PASS
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3Contents
Page
1 VERSION ..................................................................................................................................................................2
2 TEST SUMMARY ....................................................................................................................................................3
3 CONTENTS..............................................................................................................................................................4
4 GENERAL INFORMATION ...................................................................................................................................5
4.1 CLIENT INFORMATION..........................................................................................................................................5
4.2 GENERAL DESCRIPTION OF EUT ..........................................................................................................................5
4.3 TEST ENVIRONMENT ............................................................................................................................................7
4.4 DESCRIPTION OF SUPPORT UNITS.........................................................................................................................7
4.5 STATEMENT OF THE MEASUREMENT UNCERTAINTY .............................................................................................7
4.6 TEST LOCATION ...................................................................................................................................................7
4.7 TEST FACILITY .....................................................................................................................................................8
4.8 ABNORMALITIES FROM STANDARD CONDITIONS .................................................................................................8
4.9 OTHER INFORMATION REQUESTED BY THE CUSTOMER........................................................................................8
4.10 EQUIPMENT LIST ..................................................................................................................................................9
5 TEST RESULTS AND MEASUREMENT DATA ..............................................................................................10
5.1 ANTENNA REQUIREMENT...................................................................................................................................10
5.2 CONDUCTED EMISSIONS.....................................................................................................................................11
5.3 CONDUCTED PEAK OUTPUT POWER...................................................................................................................15
5.4 20DBOCCUPY BANDWIDTH...............................................................................................................................22
5.5 CARRIER FREQUENCIES SEPARATION.................................................................................................................28
5.6 HOPPING CHANNEL NUMBER .............................................................................................................................35
5.7 DWELL TIME ......................................................................................................................................................38
5.8 BAND-EDGE FOR RF CONDUCTED EMISSIONS....................................................................................................54
5.9 SPURIOUS RF CONDUCTED EMISSIONS ..............................................................................................................62
5.10 OTHER REQUIREMENTS FREQUENCY HOPPING SPREAD SPECTRUM SYSTEM......................................................90
5.11 RADIATED SPURIOUS EMISSION &RESTRICTED BANDS .....................................................................................92
5.11.1 Radiated Emission below 1GHz...........................................................................................................95
5.11.2 Transmitter Emission above 1GHz......................................................................................................97
6 PHOTOGRAPHS - EUT TEST SETUP..............................................................................................................98
6.1 RADIATED EMISSION..........................................................................................................................................98
6.2 CONDUCTED EMISSION ......................................................................................................................................99
7 PHOTOGRAPHS - EUT CONSTRUCTIONAL DETAILS.............................................................................100
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4 General Information
4.1 Client Information
Applicant: Sound Crush Company Limited
Address of Applicant: Bldg 8, Xiangyuer Ind Park, LongSheng Rd, Longgang, Shenzhen,
China
Manufacturer: Sound Crush Company Limited
Address of Manufacturer: Bldg 8, Xiangyuer Ind Park, LongSheng Rd, Longgang, Shenzhen,
China
Factory: Sound Crush Company Limited
Address of Factory: Bldg 8, Xiangyuer Ind Park, LongSheng Rd, Longgang, Shenzhen,
China
4.2 General Description of EUT
Product Name: Bluetooth speaker
Model No.: SC-190, EL161
Test Model No.: SC-190
Trade Mark: N/A
Hardware Version: 1.0
Software Version: 4.1
Operation Frequency: 2402MHz~2480MHz
Bluetooth Version: V4.1
Modulation Technique: Frequency Hopping Spread Spectrum(FHSS)
Modulation Type: *)6.ʌ/4DQPSK, 8DPSK
Number of Channel: 79
Hopping Channel Type: Adaptive Frequency Hopping systems
Sample Type: portable production
Test Software of EUT: BK3256 RF Test-V1.3 (manufacturer declare )
Antenna Type: PCB antenna
Antenna Gain: 0dBi
Power Supply: lithium battery:
Model: HYY 18650
DC3.7V, 2200mAh, Charge by DC5.0V
All model: SC-190, EL161
Only the model SC-190 was tested, since the electrical circuit design, layout, components used and internal
wiring were identical for the above models, with difference being color of appearance and model name.
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Operation Frequency each of channel
Channel Frequency Channel Frequency Channel Frequency Channel Frequency
0 2402MHz 20 2422MHz 40 2442MHz 60 2462MHz
1 2403MHz 21 2423MHz 41 2443MHz 61 2463MHz
2 2404MHz 22 2424MHz 42 2444MHz 62 2464MHz
3 2405MHz 23 2425MHz 43 2445MHz 63 2465MHz
4 2406MHz 24 2426MHz 44 2446MHz 64 2466MHz
5 2407MHz 25 2427MHz 45 2447MHz 65 2467MHz
6 2408MHz 26 2428MHz 46 2448MHz 66 2468MHz
7 2409MHz 27 2429MHz 47 2449MHz 67 2469MHz
8 2410MHz 28 2430MHz 48 2450MHz 68 2470MHz
9 2411MHz 29 2431MHz 49 2451MHz 69 2471MHz
10 2412MHz 30 2432MHz 50 2452MHz 70 2472MHz
11 2413MHz 31 2433MHz 51 2453MHz 71 2473MHz
12 2414MHz 32 2434MHz 52 2454MHz 72 2474MHz
13 2415MHz 33 2435MHz 53 2455MHz 73 2475MHz
14 2416MHz 34 2436MHz 54 2456MHz 74 2476MHz
15 2417MHz 35 2437MHz 55 2457MHz 75 2477MHz
16 2418MHz 36 2438MHz 56 2458MHz 76 2478MHz
17 2419MHz 37 2439MHz 57 2459MHz 77 2479MHz
18 2420MHz 38 2440MHz 58 2460MHz 78 2480MHz
19 2421MHz 39 2441MHz 59 2461MHz
Note:
In section 15.31(m), regards to the operating frequency range over 10 MHz, the Lowest frequency, the middle
frequency, and the highest frequency of channel were selected to perform the test, and the selected channel
see below:
Channel Frequency
The Lowest channel 2402MHz
The Middle channel 2441MHz
The Highest channel 2480MHz
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4.3 Test Environment
Operating Environment:
Temperature: 25.0 qC
Humidity: 53 % RH
Atmospheric Pressure: 995mbar
Test Mode: Use test software (BK3256 RF Test-V1.3) to set the lowest frequency, the
middle frequency and the highest frequency keep transmitting of the EUT.
4.4 Description of Support Units
The EUT has been tested with associated equipment below.
Description Manufacturer Model No. Remark FCC certification
PC Lenovo ThinkPad E450c Provide by lab FCC ID
Adapter Apple A1265 Provide by lab DOC
4.5 Statement of the measurement uncertainty
The data and results referenced in this document are true and accurate.
The reader is cautioned that there may be errors within the calibration limits of the equipment and
facilities.
The measurement uncertainty was calculated for all measurements listed in this test report acc. to
CISPR 16 - 4 „Specification for radio disturbance and immunity measuring apparatus and methods –
Part 4: Uncertainty in EMC Measurements“ and is documented in the Shenzhen Huaxia Testing
Technology Co., Ltd. quality system acc. to DIN EN ISO/IEC 17025.
Furthermore, component and process variability of devices similar to that tested may result in
additional deviation. The manufacturer has the sole responsibility of continued compliance of the
device.
Hereafter the best measurement capability for CQA laboratory is reported:
Test Range Uncertainty Notes
Radiated Emission Below 1GHz ±5.12dB (1)
Radiated Emission Above 1GHz ±4.60dB (1)
Conducted
Disturbance 0.15~30MHz ±3.34dB (1)
(1)This uncertainty represents an expanded uncertainty expressed at approximately the 95%
confidence level using a coverage factor of k=2.
4.6 Test Location
Shenzhen Huaxia Testing Technology Co., Ltd,
1F., Block A of Tongsheng Technology Building, Huahui Road, Dalang Street, Longhua District,
Shenzhen, China
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4.7 Test Facility
The test facility is recognized, certified, or accredited by the following organizations:
IC Registration No.: 22984-1
The 3m Semi-anechoic chamber of Shenzhen Huaxia Testing Technology Co., Ltd. has been
registered by Certification and Engineering Bureau of Industry Canada for radio equipment testing
The test facility is recognized, certified, or accredited by the following organizations:
• CNAS (No. CNAS L5785)
CNAS has accredited Shenzhen Huaxia Testing Technology Co., Ltd. Shenzhen Branch EMC
Lab to ISO/IEC 17025:2005 General Requirements for the Competence of Testing and Calibration
Laboratories (CNAS-CL01 Accreditation Criteria for the Competence of Testing and Calibration
Laboratories) for the competence in the field of testing.
A2LA (Certificate No. 4742.01)
Shenzhen Huaxia Testing Technology Co., Ltd., Shenzhen EMC Laboratory is accredited by the
American Association for Laboratory Accreditation(A2LA). Certificate No. 4742.01.
• FCC Registration No.: 522263
Shenzhen Huaxia Testing Technology Co., Ltd., Shenzhen EMC Laboratory has been registered and
fully described in a report filed with the (FCC) Federal Communications Commission. The acceptance
letter from the FCC is maintained in our files. Registration No.:522263
4.8 Abnormalities from Standard Conditions
None.
4.9 Other Information Requested by the Customer
None.
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4.10 Equipment List
Item Test Equipment Manufacturer Model No. Instrument
No. Calibration
Due Date
1 EMI Test Receiver R&S ESR7 CQA-005 2018/9/24
2 Spectrum analyzer R&S FSU26 CQA-038 2018/9/24
3 Preamplifier MITEQ
AFS4-
00010300-18-
10P-4
CQA-035 2018/9/24
4 Preamplifier MITEQ
AMF-6D-
02001800-29-
20P
CQA-036 2018/9/24
5 Loop antenna Schwarzbeck FMZB1516 CQA-087 2019/3/21
6 Bilog Antenna R&S HL562 CQA-011 2018/9/24
7 Horn Antenna R&S HF906 CQA-012 2018/9/24
8 Horn Antenna R&S BBHA 9170 CQA-088 2018/9/24
9Coax cable
(9KHz~40GHz) CQA RE-low-01 CQA-077 2018/9/24
10 Coax cable
(9KHz~40GHz) CQA RE-high-02 CQA-078 2018/9/24
11 Antenna Connector CQA RFC-01 CQA-080 2018/9/24
12 Power divider CQA PWD-2533-
02-SMA-79 CQA-067 2018/9/29
13 RF cable(9KHz~40GHz) CQA RF-01 CQA-079 2018/9/24
14 EMI Test Receiver R&S ESPI3 CQA-005 2018/9/24
15 LISN R&S ENV216 CQA-003 2018/9/24
16 Coaxial cable
(9KHz~300MHz) CQA N/A CQA-C009 2018/10/17
Note:
The temporary antenna connector is soldered on the PCB board in order to perform conducted tests and this
temporary antenna connector is listed in the equipment list.
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5 Test results and Measurement Data
5.1 Antenna Requirement
Standard requirement: 47 CFR Part 15C Section 15.203 /247(c)
15.203 requirement:
An intentional radiator shall be designed to ensure that no antenna other than that furnished by the
responsible party shall be used with the device. The use of a permanently attached antenna or of an
antenna that uses a unique coupling to the intentional radiator, the manufacturer may design the unit
so that a broken antenna can be replaced by the user, but the use of a standard antenna jack or
electrical connector is prohibited.
15.247(b) (4) requirement:
The conducted output power limit specified in paragraph (b) of this section is based on the use of
antennas with directional gains that do not exceed 6 dBi. Except as shown in paragraph (c) of this
section, if transmitting antennas of directional gain greater than 6 dBi are used, the conducted output
power from the intentional radiator shall be reduced below the stated values in paragraphs (b)(1),
(b)(2), and (b)(3) of this section, as appropriate, by the amount in dB that the directional gain of the
antenna exceeds 6 dBi.
EUT Antenna:
Antenna
The antenna is PCB antenna. The best case gain of the antenna is 0dBi.
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5.2 Conducted Emissions
Test Requirement: 47 CFR Part 15C Section 15.207
Test Method: ANSI C63.10: 2013
Test Frequency Range: 150kHz to 30MHz
Limit: Frequency range (MHz) Limit (dBuV)
Quasi-peak Average
0.15-0.5 66 to 56* 56 to 46*
0.5-5 56 46
5-30 60 50
* Decreases with the logarithm of the frequency.
Test Procedure: 1) The mains terminal disturbance voltage test was conducted in a shielded
room.
2) The EUT was connected to AC power source through a LISN 1 (Line
,PSHGDQFH6WDELOL]DWLRQ1HWZRUNZKLFKSURYLGHVD+OLQHDU
impedance. The power cables of all other units of the EUT were
connected to a second LISN 2, which was bonded to the ground
reference plane in the same way as the LISN 1 for the unit being
measured. A multiple socket outlet strip was used to connect multiple
power cables to a single LISN provided the rating of the LISN was not
exceeded.
3) The tabletop EUT was placed upon a non-metallic table 0.8m above the
ground reference plane. And for floor-standing arrangement, the EUT was
placed on the horizontal ground reference plane,
4) The test was performed with a vertical ground reference plane. The rear
of the EUT shall be 0.4 m from the vertical ground reference plane. The
vertical ground reference plane was bonded to the horizontal ground
reference plane. The LISN 1 was placed 0.8 m from the boundary of the
unit under test and bonded to a ground reference plane for LISNs
mounted on top of the ground reference plane. This distance was
between the closest points of the LISN 1 and the EUT. All other units of
the EUT and associated equipment was at least 0.8 m from the LISN 2.
5) In order to find the maximum emission, the relative positions of
equipment and all of the interface cables must be changed according to
ANSI C63.10: 2013 on conducted measurement.
Test Setup:
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Exploratory Test Mode: Non-hopping transmitting mode with all kind of modulation and all kind of
data type at the lowest, middle, high channel.
Final Test Mode: Through Pre-scan, find the DH5 of data type and GFSK modulation at the
lowest channel is the worst case.
Only the worst case is recorded in the report.
Test Voltage: AC 120V/60Hz
Test Results: Pass
Measurement Data
An initial pre-scan was performed on the live and neutral lines with peak detector.
Quasi-Peak and Average measurement were performed at the frequencies with maximized peak emission
were detected.
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Live line:
Remark:
1. The following Quasi-Peak and Average measurements were performed on the EUT:
2. Final Test Level =Receiver Reading + LISN Factor + Cable Loss.
3. If the Peak value under Average limit, the Average value is not recorded in the report.
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Neutral line:
Remark:
1. The following Quasi-Peak and Average measurements were performed on the EUT:
2. Final Test Level =Receiver Reading + LISN Factor + Cable Loss.
3. If the Peak value under Average limit, the Average value is not recorded in the report.
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5.3 Conducted Peak Output Power
Test Requirement: 47 CFR Part 15C Section 15.247 (b)(1)
Test Method: ANSI C63.10:2013
Test Setup:
Remark: Offset=Cable loss+ attenuation factor.
Limit: 21dBm
Exploratory Test Mode: Non-hopping transmitting with all kind of modulation and all kind of data type
Final Test Mode: Through Pre-scan, find the DH5 of data type is the worst case of GFSK
modulation type, 2-DH5 of data type is the worst FDVH RI ʌ'436.
modulation type, 3-DH5 of data type is the worst case of 8DPSK modulation
type.
Only the worst case is recorded in the report.
Test Results: Pass
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Measurement Data
GFSK mode
Test channel Peak Output Power (dBm) Limit (dBm) Result
Lowest -0.210 21.00 Pass
Middle -0.560 21.00 Pass
Highest -1.060 21.00 Pass
ʌ/4DQPSK mode
Test channel Peak Output Power (dBm) Limit (dBm) Result
Lowest -0.350 21.00 Pass
Middle -0.630 21.00 Pass
Highest -1.150 21.00 Pass
8DPSK mode
Test channel Peak Output Power (dBm) Limit (dBm) Result
Lowest -0.370 21.00 Pass
Middle -0.630 21.00 Pass
Highest -1.060 21.00 Pass
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Test plot as follows:
Graphs
GFSK/LCH
A
Offset 10.4 dB
LVL
Att 40 dB
*
Ref3
0dBm
Center2.402 GHz S
p
an 10 MHz1 MHz/
3
D
B
RB
W
2MHz
SWT 35 ms
*
VB
W
3MHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-0.21 dB
m
2.401670000 GH
z
Date: 25.JUL.2018 10:12:25
GFSK/MCH
A
Offset 10.3 dB
LV
L
Att 40 dB
*
Ref 30 dBm
Center 2.441 GHz S
p
an 10 MHz1 MHz/
3
D
B
RB
W
2MHz
SWT 35 ms
*
VB
W
3MHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-0.56 dB
m
2.440712500 GH
z
Date: 25.JUL.2018 10:16:56
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GFSK/HCH
A
Offset 10.3 dB
LVL
Att 40 dB
*
Ref 30 dBm
Center 2.48 GHz S
p
an 10 MHz1 MHz/
3
D
B
RB
W
2MHz
SWT 35 ms
*
VB
W
3MHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-1.06 dB
m
2.480083750 GH
z
Date: 25.JUL.2018 10:19:36
ʌ'436./&+
A
Offset 10.4 dB
LV
L
Att 40 dB
*
Ref 30 dBm
Center 2.40
2GHz S
p
an 10 MHz
1MHz/
3
D
B
RB
W
2MHz
SWT 35 ms
*
VB
W
3MHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-
20
-1
0
0
1
0
20
3
0
1
Marker 1 [T1 ]
-0.35 dB
m
2.401610000 GH
z
Date: 25.JUL.2018 10:23:00
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ʌ'436.0&+
A
Offset 10.3 dB
LVL
Att 40 dB
*
Ref 30 dBm
Center 2.441 GHz S
p
an 10 MHz1 MHz/
3
D
B
RB
W
2MHz
SWT 35 ms
*
VB
W
3MHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-0.63 dB
m
2.440580000 GH
z
Date: 25.JUL.2018 11:11:51
ʌ'436.+&+
A
Offset 10.3 dB
LV
L
Att 40 dB
*
Ref 30 dBm
Center 2.48GHz S
p
an 10 MHz
1MHz/
3
D
B
RB
W
2MHz
SWT 35 ms
*
VB
W
3MHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-
20
-1
0
0
1
0
20
3
0
1
Marker 1 [T1 ]
-1.15 dB
m
2.479895000 GH
z
Date: 25.JUL.2018 10:31:20
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8DPSK/LCH
A
Offset 10.4 dB
LVL
Att 40 dB
*
Ref 30 dBm
Center 2.402 GHz S
p
an 10 MHz1 MHz/
3
D
B
RB
W
2MHz
SWT 35 ms
*
VB
W
3MHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-0.37 dB
m
2.401737500 GH
z
Date: 25.JUL.2018 10:34:53
8DPSK/MCH
A
Offset 10.3 dB
LV
L
Att 40 dB
*
Ref 30 dBm
Center 2.44
1GHz S
p
an 10 MHz
1MHz/
3
D
B
RB
W
2MHz
SWT 35 ms
*
VB
W
3MHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-
20
-1
0
0
1
0
20
3
0
1
Marker 1 [T1 ]
-0.63 dB
m
2.440715000 GH
z
Date: 25.JUL.2018 10:38:29
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Report No.: CQASZ20180700073E-01
Page:21 of 107
8DPSK/HCH
A
Offset 10.3 dB
LVL
Att 40 dB
*
Ref 30 dBm
Center 2.48 GHz S
p
an 10 MHz1 MHz/
3
D
B
RB
W
2MHz
SWT 35 ms
*
VB
W
3MHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-1.06 dB
m
2.479635000 GH
z
Date: 25.JUL.2018 10:41:20
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Report No.: CQASZ20180700073E-01
Page:22 of 107
5.4 20dB Occupy Bandwidth
Test Requirement: 47 CFR Part 15C Section 15.247 (a)(1)
Test Method: ANSI C63.10:2013
Test Setup:
Remark: Offset=Cable loss+ attenuation factor.
Limit: NA
Exploratory Test Mode: Non-hopping transmitting with all kind of modulation and all kind of data type
Final Test Mode: Through Pre-scan, find the DH5 of data type is the worst case of GFSK
modulation type, 2-DH5 of data type is the worst FDVH RI ʌ'436.
modulation type, 3-DH5 of data type is the worst case of 8DPSK modulation
type.
Only the worst case is recorded in the report.
Test Results: Pass
Measurement Data
Test channel 20dB Occupy Bandwidth (MHz)
GFSK ʌ/4DQPSK 8DPSK
Lowest 1.172 1.314 1.334
Middle 1.168 1.310 1.344
Highest 1.176 1.324 1.350
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Report No.: CQASZ20180700073E-01
Page:23 of 107
Test plot as follows:
Graphs
GFSK/LCH
A
Att 40 dB
*
Offset 10.4 dB
LV
L
Ref 30 dBm
Center 2.402 GHz S
p
an 2 MHz200 kHz/
3
D
B
RB
W
100 kHz
SWT 5 ms
*
VB
W
300 kHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-22.07 dB
m
2.401382000 GH
z
2
Marker 2 [T1 ]
-1.17 dB
m
2.401810000 GH
z
3
Delta 3 [T1 ]
-0.18 dB
1.172000000 MH
z
D1 -21.167 dBm
Date: 25.JUL.2018 10:11:46
GFSK/MCH
Att 40 dB
*
A
O
ffset 1
0.3 dB
LVL
Ref 30 dBm
Center 2.441 GHz S
p
an 2 MHz200 kHz/
3
D
B
RB
W
100 kHz
SWT 5 ms
*
VB
W
300 kHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-23.81 dB
m
2.440376000 GH
z
2
Marker 2 [T1 ]
-1.53 dB
m
2.440798000 GH
z
3
Delta 3 [T1 ]
1.96 dB
1.168000000 MH
z
D1 -21.533 dBm
Date: 25.JUL.2018 10:16:20
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Report No.: CQASZ20180700073E-01
Page:24 of 107
GFSK/HCH
Att 40 dB
*
A
Offset 10.3 dB
LVL
Ref 30 dBm
Center 2.48 GHz S
p
an 2 MHz200 kHz/
3
D
B
RB
W
100 kHz
SWT 5 ms
*
VB
W
300 kHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-22.19 dB
m
2.479370000 GH
z
2
Marker 2 [T1 ]
-2.17 dB
m
2.479780000 GH
z
3
Delta 3 [T1 ]
-0.44 dB
1.176000000 MH
z
D1 -22.174 dBm
Date: 25.JUL.2018 10:19:00
ʌ'436./&+
Att 40 dB
*
A
Offset 10.4 dB
LV
L
Ref 30 dBm
Center 2.40
2GHz S
p
an 2 MHz200 kHz/
3
D
B
RB
W
100 kHz
SWT 5 ms
*
VB
W
300 kHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-
20
-1
0
0
1
0
20
3
0
1
Marker 1 [T1 ]
-22.93 dB
m
2.401304000 GH
z
2
Marker 2 [T1 ]
-2.26 dB
m
2.401780000 GH
z
3
Delta 3 [T1 ]
0.54 dB
1.314000000 MH
z
D1 -22.258 dBm
Date: 25.JUL.2018 10:22:23
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Report No.: CQASZ20180700073E-01
Page:25 of 107
ʌ'436.0&+
Att 40 dB
*
A
Offset 10.3 dB
LVL
Ref 30 dBm
Center 2.441 GHz S
p
an 2 MHz200 kHz/
3
D
B
RB
W
100 kHz
SWT 5 ms
*
VB
W
300 kHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-23.39 dB
m
2.440302000 GH
z
2
Marker 2 [T1 ]
-2.57 dB
m
2.440790000 GH
z
3
Delta 3 [T1 ]
0.25 dB
1.310000000 MH
z
D1 -22.574 dBm
Date: 25.JUL.2018 10:25:38
ʌ'436.+&+
A
Att 40 dB
*
Offset 10.3 dB
LV
L
Ref 30 dBm
Center 2.48GHz S
p
an 2 MHz200 kHz/
3
D
B
RB
W
100 kHz
SWT 5 ms
*
VB
W
300 kHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-
20
-1
0
0
1
0
20
3
0
1
Marker 1 [T1 ]
-23.11 dB
m
2.479296000 GH
z
2
Marker 2 [T1 ]
-3.01 dB
m
2.479780000 GH
z
3
Delta 3 [T1 ]
-0.25 dB
1.324000000 MH
z
D1 -23.01 dBm
Date: 25.JUL.2018 10:30:36
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Report No.: CQASZ20180700073E-01
Page:26 of 107
8DPSK/LCH
Att 40 dB
*
A
Offset 10.4 dB
LVL
Ref 30 dBm
Center 2.402 GHz S
p
an 2 MHz200 kHz/
3
D
B
RB
W
100 kHz
SWT 5 ms
*
VB
W
300 kHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-24.12 dB
m
2.401294000 GH
z
2
Marker 2 [T1 ]
-2.01 dB
m
2.401782000 GH
z
3
Delta 3 [T1 ]
0.28 dB
1.334000000 MH
z
D1 -22.014 dBm
Date: 25.JUL.2018 10:34:08
8DPSK/MCH
A
Att 40 dB
*
Offset 10.3 dB
LV
L
Ref 30 dBm
Center 2.44
1GHz S
p
an 2 MHz200 kHz/
3
D
B
RB
W
100 kHz
SWT 5 ms
*
VB
W
300 kHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-
20
-1
0
0
1
0
20
3
0
1
Marker 1 [T1 ]
-22.73 dB
m
2.440290000 GH
z
2
Marker 2 [T1 ]
-2.41 dB
m
2.440790000 GH
z
3
Delta 3 [T1 ]
0.07 dB
1.344000000 MH
z
D1 -22.409 dBm
Date: 25.JUL.2018 10:37:44
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Report No.: CQASZ20180700073E-01
Page:27 of 107
8DPSK/HCH
A
Att 40 dB
*
Offset 10.3 dB
LVL
Ref 30 dBm
Center 2.48 GHz S
p
an 2 MHz200 kHz/
3
D
B
RB
W
100 kHz
SWT 5 ms
*
VB
W
300 kHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-23.80 dB
m
2.479286000 GH
z
2
Marker 2 [T1 ]
-2.75 dB
m
2.479790000 GH
z
3
Delta 3 [T1 ]
-2.29 dB
1.350000000 MH
z
D1 -22.748 dBm
Date: 25.JUL.2018 10:40:35
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Report No.: CQASZ20180700073E-01
Page:28 of 107
5.5 Carrier Frequencies Separation
Test Requirement: 47 CFR Part 15C Section 15.247 (a)(1)
Test Method: ANSI C63.10:2013
Test Setup:
Remark: Offset=Cable loss+ attenuation factor.
Limit: 2/3 of the 20dB bandwidth
Remark: the transmission power is less than 0.125W.
Exploratory Test Mode: Hopping transmitting with all kind of modulation and all kind of data type
Final Test Mode: Through Pre-scan, find the DH5 of data type is the worst case of GFSK
modulation type, 2-DH5 of data type is the worst case of ʌ'436.
modulation type, 3-DH5 of data type is the worst case of 8DPSK modulation
type.
Only the worst case is recorded in the report.
Test Results: Pass
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Report No.: CQASZ20180700073E-01
Page:29 of 107
Measurement Data
GFSK mode
Test channel Carrier Frequencies
Separation (MHz) Limit (MHz) Result
Lowest 1.000 0.784 Pass
Middle 1.000 0.784 Pass
Highest 0.985 0.784 Pass
ʌ/4DQPSK mode
Test channel Carrier Frequencies
Separation (MHz) Limit (MHz) Result
Lowest 1.000 0.883 Pass
Middle 1.010 0.883 Pass
Highest 1.005 0.883 Pass
8DPSK mode
Test channel Carrier Frequencies
Separation (MHz) Limit (MHz) Result
Lowest 1.020 900 Pass
Middle 1.000 900 Pass
Highest 1.045 900 Pass
Note: According to section 5.4,
Mode 20dB bandwidth (MHz)
(worse case)
Limit (MHz)
(Carrier Frequencies Separation)
GFSK 1.176 0.784
ʌ/4DQPSK 1.324 0.883
8DPSK 1.350 0.900
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Report No.: CQASZ20180700073E-01
Page:30 of 107
Test plot as follows:
Graphs
GFSK/LCH
Ref 30 dBm Att 40 dB
*
*
*
O
ffset 10.3 dB
1P
K
VIE
W
A
LV
L
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 2.5 ms
Center 2.4025 GHz S
p
an 3 MHz300 kHz/
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
M
arker 1 [T1 ]
-1.21 dB
m
2.401810000 GH
z
1
D
elta 1 [T1 ]
-0.07 dB
1.000000000 MH
z
Date: 25.JUL.2018 13:58:14
GFSK/MCH
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1P
K
VIE
W
A
LV
L
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 2.5 ms
Center 2.4415 GHz S
p
an 3 MHz300 kHz/
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
M
arker 1 [T1 ]
-1.41 dB
m
2.440810000 GH
z
1
D
elta 1 [T1 ]
-0.23 dB
1.000000000 MH
z
Date: 25.JUL.2018 14:02:46
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Report No.: CQASZ20180700073E-01
Page:31 of 107
GFSK/HCH
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1P
K
VIEW
A
LVL
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 2.5 ms
Center 2.4795 GHz S
p
an 3 MHz300 kHz/
-7
0
-
60
-5
0
-
40
-3
0
-2
0
-1
0
0
1
0
20
3
0
1
M
arker 1 [T1 ]
-2.01 dB
m
2.478810000 GH
z
1
D
elta 1 [T1 ]
0.03 dB
985.000000000 kH
z
Date: 25.JUL.2018 14:06:36
ʌ'436./&+
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1PK
VIE
W
A
LV
L
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 2.5 ms
Center 2.4025 GHz S
p
an 3 MHz300 kHz/
-7
0
-
60
-5
0
-
40
-3
0
-2
0
-
1
0
0
1
0
2
0
3
0
1
M
arker 1 [T1 ]
-2.31 dB
m
2.401780000 GH
z
1
D
elta 1 [T1 ]
-0.02 dB
1.000000000 MH
z
Date: 25.JUL.2018 14:14:08
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Report No.: CQASZ20180700073E-01
Page:32 of 107
ʌ'436.0&+
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1P
K
VIEW
A
LVL
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 2.5 ms
Center 2.4415 GHz S
p
an 3 MHz300 kHz/
-7
0
-
60
-5
0
-
40
-3
0
-2
0
-1
0
0
1
0
20
3
0
1
M
arker 1 [T1 ]
-2.50 dB
m
2.440775000 GH
z
1
D
elta 1 [T1 ]
-0.19 dB
1.010000000 MH
z
Date: 25.JUL.2018 14:12:01
ʌ'436.+&+
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1PK
VIE
W
A
LV
L
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 2.5 ms
Center 2.4795 GHz S
p
an 3 MHz300 kHz/
-7
0
-
60
-5
0
-
40
-3
0
-2
0
-
1
0
0
1
0
2
0
3
0
1
M
arker 1 [T1 ]
-2.95 dB
m
2.478775000 GH
z
1
D
elta 1 [T1 ]
-0.10 dB
1.005000000 MH
z
Date: 25.JUL.2018 14:09:36
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Report No.: CQASZ20180700073E-01
Page:33 of 107
8DPSK/LCH
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1P
K
VIEW
A
LVL
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 2.5 ms
Center 2.4025 GHz S
p
an 3 MHz300 kHz/
-7
0
-
60
-5
0
-
40
-3
0
-2
0
-1
0
0
1
0
20
3
0
1
M
arker 1 [T1 ]
-2.08 dB
m
2.401760000 GH
z
1
D
elta 1 [T1 ]
0.05 dB
1.020000000 MH
z
Date: 25.JUL.2018 14:17:24
8DPSK/MCH
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1PK
VIE
W
A
LV
L
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 2.5 ms
Center 2.4415 GHz S
p
an 3 MHz300 kHz/
-7
0
-
60
-5
0
-
40
-3
0
-2
0
-
1
0
0
1
0
2
0
3
0
1
M
arker 1 [T1 ]
-2.10 dB
m
2.440780000 GH
z
1
D
elta 1 [T1 ]
-0.18 dB
1.000000000 MH
z
Date: 25.JUL.2018 14:20:18
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Report No.: CQASZ20180700073E-01
Page:34 of 107
8DPSK/HCH
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1P
K
VIEW
A
LVL
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 2.5 ms
Center 2.4795 GHz S
p
an 3 MHz300 kHz/
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
20
3
0
1
M
arker 1 [T1 ]
-3.05 dB
m
2.478750000 GH
z
1
D
elta 1 [T1 ]
0.14 dB
1.045000000 MH
z
Date: 25.JUL.2018 14:24:14
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Report No.: CQASZ20180700073E-01
Page:35 of 107
5.6 Hopping Channel Number
Test Requirement: 47 CFR Part 15C Section 15.247 (a)(1)
Test Method: ANSI C63.10:2013
Test Setup:
Remark: Offset=Cable loss+ attenuation factor.
Limit: At least 15 channels
Exploratory Test Mode: hopping transmitting with all kind of modulation and all kind of data type
Final Test Mode: Through Pre-scan, find the DH5 of data type is the worst case of GFSK
modulation type, 2-DH5 of data type is the worst FDVH RI ʌ'436.
modulation type, 3-DH5 of data type is the worst case of 8DPSK
modulation type.
Only the worst case is recorded in the report.
Test Results: Pass
Measurement Data
Mode Hopping channel numbers Limit
GFSK 79 15
ʌ/4DQPSK 79 15
8DPSK 79 15
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Report No.: CQASZ20180700073E-01
Page:36 of 107
Test plot as follows:
Graphs
GFSK/Hop
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1P
K
VIEW
A
LVL
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 10 ms
Start 2.4 GHz Sto
p
2.4835 GHz8.35 MHz/
-7
0
-
60
-5
0
-
40
-3
0
-2
0
-1
0
0
1
0
20
3
0
1
M
arker 1 [T1 ]
-1.54 dB
m
2.401857340 GH
z
1
D
elta 1 [T1 ]
-1.67 dB
78.163493590 MH
z
Date: 25.JUL.2018 13:55:55
ʌ'436.+RS
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1P
K
VIE
W
A
LV
L
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 10 ms
Start 2.4 GHz Sto
p
2.4835 GHz8.35 MHz/
-7
0
-
60
-5
0
-
40
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
M
arker 1 [T1 ]
-5.55 dB
m
2.401793109 GH
z
1
D
elta 1 [T1 ]
0.10 dB
78.029679487 MH
z
Date: 25.JUL.2018 11:27:10
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Report No.: CQASZ20180700073E-01
Page:37 of 107
8DPSK/Hop
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1P
K
VIEW
A
LVL
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 10 ms
Start 2.4 GHz Sto
p
2.4835 GHz8.35 MHz/
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
20
3
0
1
M
arker 1 [T1 ]
-3.14 dB
m
2.401680705 GH
z
1
D
elta 1 [T1 ]
-0.35 dB
78.147435897 MH
z
Date: 25.JUL.2018 13:32:41
Shenzhen Huaxia Testin
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Technolo
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Report No.: CQASZ20180700073E-01
Page:38 of 107
5.7 Dwell Time
Test Requirement: 47 CFR Part 15C Section 15.247 (a)(1)
Test Method: ANSI C63.10:2013
Test Setup:
Remark: Offset=Cable loss+ attenuation factor.
Test Mode: Hopping transmitting with all kind of modulation and all kind of data type.
Limit: 0.4 Second
Test Results: Pass
Shenzhen Huaxia Testin
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Report No.: CQASZ20180700073E-01
Page:39 of 107
Measurement Data
Mode Packet Channel Burst Width
[ms/hop/ch] Dwell Time[s] Limit (second)
GFSK DH1 LCH 0.38 0.122 
GFSK DH1 MCH 0.4 0.128 
GFSK DH1 HCH 0.36 0.115 
ʌ'436. 2DH1 LCH 0.4 0.128 
ʌ'436. 2DH1 MCH 0.36 0.115 
ʌ'436. 2DH1 HCH 0.41 0.131 
8DPSK 3DH1 LCH 0.38 0.122 
8DPSK 3DH1 MCH 0.36 0.115 
8DPSK 3DH1 HCH 0.36 0.115 
GFSK DH3 LCH 1.64 0.262 
GFSK DH3 MCH 1.65 0.264 
GFSK DH3 HCH 1.68 0.269 
ʌ'436. 2DH3 LCH 1.65 0.264 
ʌ'436. 2DH3 MCH 1.64 0.262 
ʌ'436. 2DH3 HCH 1.64 0.262 
8DPSK 3DH3 LCH 1.65 0.264 
8DPSK 3DH3 MCH 1.64 0.262 
8DPSK 3DH3 HCH 1.64 0.262 
GFSK DH5 LCH 2.93 0.313 
GFSK DH5 MCH 2.93 0.313 
GFSK DH5 HCH 2.96 0.316 
ʌ'436. 2DH5 LCH 2.89 0.308 
ʌ'436. 2DH5 MCH 2.92 0.312 
ʌ'436. 2DH5 HCH 2.93 0.313 
8DPSK 3DH5 LCH 2.92 0.312 
8DPSK 3DH5 MCH 2.92 0.312 
8DPSK 3DH5 HCH 2.92 0.312 
Remark:
The test period: T= 0.4 Second/Channel x 79 Channel = 31.6 s
DH1/2DH1/3DH1 Dwell time = Burst Width(ms)*(1600/ (2*79))*31.6
DH3/2DH3/3DH3 Dwell time = Burst Width (ms)*(1600/ (4*79))*31.6
DH5/2DH5/3DH5 Dwell time = Burst Width (ms)*(1600/ (6*79))*31.6
Shenzhen Huaxia Testin
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Report No.: CQASZ20180700073E-01
Page:40 of 107
Test plot as follows:
Graphs
GFSK_DH1/LCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.402 GHz 500
μ
s/
SWT 5 ms
*
1P
K
-
8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-1
0
0
1
0
2
0
1
Marker 1 [T1 ]
-12.11 dB
m
625.000000 ns
1
Delta 1 [T1 ]
0.53 dB
375.000000 μs
TRG -16.9 dBm
Date: 25.JUL.2018 10:44:14
GFSK_DH1/MCH
Ref 20 dBm Att 30 dB
*
A
3DB
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.441 GHz 500
μ
s/
SWT 5 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-1
0
0
1
0
2
0
1
Marker 1 [T1 ]
-12.23 dB
m
625.000000 ns
1
Delta 1 [T1 ]
0.43 dB
401.250000 μs
TRG -17.1 dBm
Date: 25.JUL.2018 10:44:39
Shenzhen Huaxia Testin
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Technolo
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Co., Ltd
Report No.: CQASZ20180700073E-01
Page:41 of 107
GFSK_DH1/HCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.48 GHz 500
μ
s/
SWT 5 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-1
0
0
1
0
2
0
1
Marker 1 [T1 ]
-12.94 dB
m
0.000000 s
1
Delta 1 [T1 ]
0.41 dB
362.500000 μs
TRG -17.7 dBm
Date: 25.JUL.2018 10:45:07
ʌ'436.
_2DH1/LCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.402 GHz 500
μ
s/
SWT 5 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-
10
0
10
2
0
1
Marker 1 [T1 ]
-15.27 dB
m
-76.875000 μs
1
Delta 1 [T1 ]
2.32 dB
401.875000 μs
TRG -17.2 dBm
Date: 25.JUL.2018 10:48:11
Shenzhen Huaxia Testin
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Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:42 of 107
ʌ'436.
_2DH1/MCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.441 GHz 500
μ
s/
SWT 5 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-1
0
0
1
0
2
0
1
Marker 1 [T1 ]
-15.13 dB
m
0.000000 s
1
Delta 1 [T1 ]
3.14 dB
361.875000 μs
TRG -17.4 dBm
Date: 25.JUL.2018 10:48:36
ʌ'436.
_2DH1/HCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.48 GHz 500
μ
s/
SWT 5 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-
10
0
10
2
0
1
Marker 1 [T1 ]
-15.73 dB
m
625.000000 ns
1
Delta 1 [T1 ]
2.00 dB
414.375000 μs
TRG -17.9 dBm
Date: 25.JUL.2018 10:49:06
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:43 of 107
8DPSK _3DH1/LCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.402 GHz 500
μ
s/
SWT 5 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-1
0
0
1
0
2
0
1
Marker 1 [T1 ]
-15.32 dB
m
0.000000 s
1
Delta 1 [T1 ]
3.53 dB
375.625000 μs
TRG -17.2 dBm
Date: 25.JUL.2018 10:52:30
8DPSK _3DH1/MCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.441 GHz 500
μ
s/
SWT 5 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-
10
0
10
2
0
1
Marker 1 [T1 ]
-14.83 dB
m
0.000000 s
1
Delta 1 [T1 ]
1.50 dB
362.500000 μs
TRG -17.4 dBm
Date: 25.JUL.2018 10:52:59
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:44 of 107
8DPSK _3DH1/HCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.48 GHz 500
μ
s/
SWT 5 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-1
0
0
1
0
2
0
1
Marker 1 [T1 ]
-15.48 dB
m
0.000000 s
1
Delta 1 [T1 ]
2.76 dB
362.500000 μs
TRG -17.9 dBm
Date: 25.JUL.2018 10:53:24
GFSK_DH3/LCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.402 GHz 1 ms/
SWT 10 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-
10
0
10
2
0
1
Marker 1 [T1 ]
-11.83 dB
m
1.250000 μs
1
Delta 1 [T1 ]
0.52 dB
1.640000 ms
TRG -16.6 dBm
Date: 25.JUL.2018 10:45:29
Shenzhen Huaxia Testin
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Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:45 of 107
GFSK_DH3/MCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.441 GHz 1 ms/
SWT 10 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-1
0
0
1
0
2
0
1
Marker 1 [T1 ]
-12.14 dB
m
1.250000 μs
1
Delta 1 [T1 ]
0.62 dB
1.652500 ms
TRG -16.8 dBm
Date: 25.JUL.2018 10:45:56
GFSK_DH3/HCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.48 GHz 1 ms/
SWT 10 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-
10
0
10
2
0
1
Marker 1 [T1 ]
-12.63 dB
m
0.000000 s
1
Delta 1 [T1 ]
0.73 dB
1.678750 ms
TRG -17.3 dBm
Date: 25.JUL.2018 10:46:24
Shenzhen Huaxia Testin
g
Technolo
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Co., Ltd
Report No.: CQASZ20180700073E-01
Page:46 of 107
ʌ'436.
_2DH3/LCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.402 GHz 1 ms/
SWT 10 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-1
0
0
1
0
2
0
1
Marker 1 [T1 ]
-14.93 dB
m
0.000000 s
1
Delta 1 [T1 ]
3.50 dB
1.645000 ms
TRG -16.8 dBm
Date: 25.JUL.2018 10:49:39
ʌ'436.
_2DH3/MCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.441 GHz 1 ms/
SWT 10 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-
10
0
10
2
0
1
Marker 1 [T1 ]
-15.09 dB
m
0.000000 s
1
Delta 1 [T1 ]
3.56 dB
1.643750 ms
TRG -17 dBm
Date: 25.JUL.2018 10:50:03
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:47 of 107
ʌ'436.
_2DH3/HCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.48 GHz 1 ms/
SWT 10 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-1
0
0
1
0
2
0
1
Marker 1 [T1 ]
-15.75 dB
m
-1.396250 ms
1
Delta 1 [T1 ]
3.75 dB
1.640000 ms
TRG -17.4 dBm
Date: 25.JUL.2018 10:50:30
8DPSK _3DH3/LCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.402 GHz 1 ms/
SWT 10 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-
10
0
10
2
0
1
Marker 1 [T1 ]
-14.59 dB
m
0.000000 s
1
Delta 1 [T1 ]
3.23 dB
1.652500 ms
TRG -16.8 dBm
Date: 25.JUL.2018 10:53:50
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:48 of 107
8DPSK _3DH3/MCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.441 GHz 1 ms/
SWT 10 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-1
0
0
1
0
2
0
1
Marker 1 [T1 ]
-14.83 dB
m
1.250000 μs
1
Delta 1 [T1 ]
3.21 dB
1.640000 ms
TRG -17.1 dBm
Date: 25.JUL.2018 10:55:29
8DPSK _3DH3/HCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.48 GHz 1 ms/
SWT 10 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-
10
0
10
2
0
1
Marker 1 [T1 ]
-15.95 dB
m
1.250000 μs
1
Delta 1 [T1 ]
3.95 dB
1.642500 ms
TRG -17.4 dBm
Date: 25.JUL.2018 10:55:56
Shenzhen Huaxia Testin
g
Technolo
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Co., Ltd
Report No.: CQASZ20180700073E-01
Page:49 of 107
GFSK_DH5/LCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.402 GHz 1.5 ms/
SWT 15 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-1
0
0
1
0
2
0
1
Marker 1 [T1 ]
-11.48 dB
m
1.875000 μs
1
Delta 1 [T1 ]
0.17 dB
2.928750 ms
TRG -16.6 dBm
Date: 25.JUL.2018 10:46:50
GFSK_DH5/MCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.441 GHz 1.5 ms/
SWT 15 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-
10
0
10
2
0
1
Marker 1 [T1 ]
-12.14 dB
m
0.000000 s
1
Delta 1 [T1 ]
0.76 dB
2.930625 ms
TRG -16.7 dBm
Date: 25.JUL.2018 10:47:15
Shenzhen Huaxia Testin
g
Technolo
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Co., Ltd
Report No.: CQASZ20180700073E-01
Page:50 of 107
GFSK_DH5/HCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.48 GHz 1.5 ms/
SWT 15 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-1
0
0
1
0
2
0
1
Marker 1 [T1 ]
-12.17 dB
m
1.875000 μs
1
Delta 1 [T1 ]
0.32 dB
2.955000 ms
TRG -17.2 dBm
Date: 25.JUL.2018 10:47:38
ʌ'436.
_2DH5/LCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.402 GHz 1.5 ms/
SWT 15 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-
10
0
10
2
0
1
Marker 1 [T1 ]
-14.97 dB
m
0.000000 s
1
Delta 1 [T1 ]
3.65 dB
2.891250 ms
TRG -16.7 dBm
Date: 25.JUL.2018 10:51:03
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:51 of 107
ʌ'436.
_2DH5/MCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.441 GHz 1.5 ms/
SWT 15 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-1
0
0
1
0
2
0
1
Marker 1 [T1 ]
-15.36 dB
m
-2.105625 ms
1
Delta 1 [T1 ]
3.91 dB
2.917500 ms
TRG -16.9 dBm
Date: 25.JUL.2018 10:51:28
ʌ'436.
_2DH5/HCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.48 GHz 1.5 ms/
SWT 15 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-
10
0
10
2
0
1
Marker 1 [T1 ]
-15.73 dB
m
-712.500000 μs
1
Delta 1 [T1 ]
3.90 dB
2.934375 ms
TRG -17.3 dBm
Date: 25.JUL.2018 10:51:54
Shenzhen Huaxia Testin
g
Technolo
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Co., Ltd
Report No.: CQASZ20180700073E-01
Page:52 of 107
8DPSK _3DH5/LCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.402 GHz 1.5 ms/
SWT 15 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-1
0
0
1
0
2
0
1
Marker 1 [T1 ]
-14.81 dB
m
-2.580000 ms
1
Delta 1 [T1 ]
3.54 dB
2.917500 ms
TRG -16.7 dBm
Date: 25.JUL.2018 10:56:26
8DPSK _3DH5/MCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.441 GHz 1.5 ms/
SWT 15 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-
10
0
10
2
0
1
Marker 1 [T1 ]
-16.06 dB
m
1.875000 μs
1
Delta 1 [T1 ]
4.67 dB
2.917500 ms
TRG -16.9 dBm
Date: 25.JUL.2018 10:56:57
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Report No.: CQASZ20180700073E-01
Page:53 of 107
8DPSK _3DH5/HCH
Ref 20 dBm Att 30 dB
*
A
3
D
B
RB
W
1MHz
VB
W
3MHz
*
C
LRW
R
SGL
TR
G
Center 2.48 GHz 1.5 ms/
SWT 15 ms
*
1P
K
-8
0
-
70
-6
0
-
50
-4
0
-
30
-2
0
-1
0
0
1
0
2
0
1
Marker 1 [T1 ]
-15.44 dB
m
1.875000 μs
1
Delta 1 [T1 ]
3.60 dB
2.921250 ms
TRG -17.3 dBm
Date: 25.JUL.2018 10:57:27
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Report No.: CQASZ20180700073E-01
Page:54 of 107
5.8 Band-edge for RF Conducted Emissions
Test Requirement: 47 CFR Part 15C Section 15.247 (d)
Test Method: ANSI C63.10:2013
Test Setup:
Remark: Offset=cable loss+ attenuation factor.
Limit: In any 100 kHz bandwidth outside the frequency band in which the spread
spectrum intentional radiator is operating, the radio frequency power that is
produced by the intentional radiator shall be at least 20 dB below that in the
100 kHz bandwidth within the band that contains the highest level of the
desired power, based on either an RF conducted or a radiated measurement.
Exploratory Test Mode: Hopping and Non-hopping transmitting with all kind of modulation and all kind
of data type
Final Test Mode: Through Pre-scan, find the DH5 of data type is the worst case of GFSK
modulation type, 2-DH5 of data type is the worst FDVH RI ʌ'436.
modulation type, 3-DH5 of data type is the worst case of 8DPSK modulation
type.
Only the worst case is recorded in the report.
Test Results: Pass
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Report No.: CQASZ20180700073E-01
Page:55 of 107
Mode Test
Channel
Frequency
[MHz]
Frequency
Hopping
Emission
Level [dBm]
Limit
[dBm] Result
GFSK LCH 2400 Off -40.610 -21.20 PASS
On -34.590 -20.96 PASS
GFSK HCH 2483.5 Off -40.430 -22.54 PASS
On -34.770 -22.02 PASS
ʌ'436. LCH 2400 Off -36.80 -22.39 PASS
On -34.260 -22.27 PASS
ʌ'436. HCH 2483.5 Off -37.550 -23.32 PASS
On -34.350 -23.25 PASS
8DPSK LCH 2400 Off -39.680 -23.07 PASS
On -30.360 21.96 PASS
8DPSK HCH 2483.5 Off -34.830 -24.59 PASS
On -33.830 -22.79 PASS
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Report No.: CQASZ20180700073E-01
Page:56 of 107
Test plot as follows:
Graphs
GFSK/LCH/No Hop
A
Offset 10.4 dB
LVL
Att 40 dB
*
Ref3
0dBm
Center2.4 GHz S
p
an 60 MHz6MHz/
3
D
B
RB
W
100 kHz
SWT 35 ms
*
VB
W
300 kHz
*
1
PK
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-1.20 dB
m
2.401807500 GH
z
2
Marker 2 [T1 ]
-40.61 dB
m
2.400000000 GH
z
3
Marker3[T1]
-40.86 dB
m
2.390000000 GH
z
4
Marker 4 [T1 ]
-2.46 dB
m
2.401762500 GH
z
D1 -21.2 dBm
Date: 25.JUL.2018 10:12:48
GFSK/LCH/Hop
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1P
K
VIE
W
A
LV
L
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 10 ms
Center 2.4 GHz S
p
an 60 MHz6MHz/
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-0.96 dB
m
2.429100000 GH
z
2
Marker 2 [T1 ]
-34.59 dB
m
2.400000000 GH
z
3
Marker 3 [T1 ]
-35.21 dB
m
2.390000000 GH
z
4
Marker 4 [T1 ]
-1.60 dB
m
2.430000000 GH
z
D1 -20.96 dBm
Date: 25.JUL.2018 13:52:28
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Report No.: CQASZ20180700073E-01
Page:57 of 107
GFSK/HCH/No Hop
A
Offset 10.3 dB
LVL
Att 40 dB
*
Ref 30 dBm
Center 2.4835 GHz S
p
an 60 MHz6MHz/
3
D
B
RB
W
100 kHz
SWT 35 ms
*
VB
W
300 kHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-2.54 dB
m
2.479900000 GH
z
2
Marker 2 [T1 ]
-40.43 dB
m
2.483500000 GH
z
3
Marker 3 [T1 ]
-39.99 dB
m
2.500000000 GH
z
4
Marker 4 [T1 ]
-33.31 dB
m
2.488135000 GH
z
D1 -22.54 dBm
Date: 25.JUL.2018 10:19:54
GFSK/HCH/Hop
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1P
K
VIE
W
A
LV
L
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 10 ms
Center 2.4835 GHz S
p
an 60 MHz6 MHz/
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
20
3
0
1
Marker 1 [T1 ]
-2.02 dB
m
2.480100000 GH
z
2
Marker 2 [T1 ]
-34.77 dB
m
2.483500000 GH
z
3
Marker 3 [T1 ]
-34.80 dB
m
2.500000000 GH
z
4
Marker 4 [T1 ]
-33.82 dB
m
2.506900000 GH
z
D1 -22.02 dBm
Date: 25.JUL.2018 13:48:37
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Report No.: CQASZ20180700073E-01
Page:58 of 107
ʌ'436./&+1R
Hop
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.4 dB
1P
K
VIE
W
A
LVL
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 35 ms
Center 2.4 GHz S
p
an 60 MHz6MHz/
-7
0
-
60
-5
0
-
40
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-2.39 dB
m
2.401777500 GH
z
2
Marker 2 [T1 ]
-36.80 dB
m
2.400000000 GH
z
3
Marker 3 [T1 ]
-36.99 dB
m
2.390000000 GH
z
4
Marker 4 [T1 ]
-24.92 dB
m
2.400967500 GH
z
D1 -22.39 dBm
Date: 25.JUL.2018 14:36:08
ʌ'436./&++RS
Ref 30 dBmAtt 40 dB
*
*
*
Offset 1
0.3 dB
1P
K
VIE
W
A
LV
L
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 10 ms
Center 2.4 GHz S
p
an 60 MHz6MHz/
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1[T1]
-2.37 dB
m
2
.425900000 GH
z
2
Marker 2 [T1 ]
-34.26 dB
m
2.400000000 GH
z
3
Marker 3 [T1 ]
-35.10 dB
m
2.390000000 GH
z
4
Marker 4 [T1 ]
-
2.46 dB
m
2
.401800000 GH
z
D1 -22.37 dBm
Date: 25.JUL.2018 11:46:05
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Report No.: CQASZ20180700073E-01
Page:59 of 107
ʌ'436.+&+1R
Hop
A
Offset 10.3 dB
LVL
Att 40 dB
*
Ref 30 dBm
Center 2.4835 GHz S
p
an 60 MHz6MHz/
3
D
B
RB
W
100 kHz
SWT 35 ms
*
VB
W
300 kHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-3.32 dB
m
2.479765000 GH
z
2
Marker 2 [T1 ]
-37.55 dB
m
2.483500000 GH
z
3
Marker 3 [T1 ]
-37.40 dB
m
2.500000000 GH
z
4
Marker 4 [T1 ]
-34.19 dB
m
2.507972500 GH
z
D1 -23.32 dBm
Date: 25.JUL.2018 10:31:42
ʌ'436.+&++RS
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1P
K
VIE
W
A
LV
L
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 10 ms
Center 2.4835 GHz S
p
an 60 MHz6 MHz/
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
20
3
0
1
Marker 1 [T1 ]
-3.25 dB
m
2.479800000 GH
z
2
Marker 2 [T1 ]
-34.35 dB
m
2.483500000 GH
z
3
Marker 3 [T1 ]
-34.48 dB
m
2.500000000 GH
z
4
Marker 4 [T1 ]
-30.20 dB
m
2.482900000 GH
z
D1 -23.25 dBm
Date: 25.JUL.2018 13:45:48
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Report No.: CQASZ20180700073E-01
Page:60 of 107
8DPSK/LCH/No Hop
A
Offset 10.4 dB
LVL
Att 40 dB
*
Ref 30 dBm
Center 2.4 GHz S
p
an 60 MHz6MHz/
3
D
B
RB
W
100 kHz
SWT 35 ms
*
VB
W
300 kHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-3.07 dB
m
2.401800000 GH
z
2
Marker 2 [T1 ]
-39.68 dB
m
2.400000000 GH
z
3
Marker 3 [T1 ]
-40.08 dB
m
2.390000000 GH
z
4
Marker 4 [T1 ]
-5.35 dB
m
2.401702500 GH
z
D1 -23.07 dBm
Date: 25.JUL.2018 10:35:19
8DPSK/LCH/Hop
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1P
K
VIE
W
A
LV
L
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 10 ms
Center 2.4 GHz S
p
an 60 MHz6 MHz/
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
20
3
0
1
Marker 1 [T1 ]
-1.96 dB
m
2.428900000 GH
z
2
Marker 2 [T1 ]
-30.36 dB
m
2.400000000 GH
z
3
Marker 3 [T1 ]
-34.83 dB
m
2.390000000 GH
z
4
Marker 4 [T1 ]
-2.16 dB
m
2.424900000 GH
z
D1 -21.96 dBm
Date: 25.JUL.2018 12:57:47
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Report No.: CQASZ20180700073E-01
Page:61 of 107
8DPSK/HCH/No Hop
A
Offset 10.3 dB
LVL
Att 40 dB
*
Ref 30 dBm
Center 2.4835 GHz S
p
an 60 MHz6MHz/
3
D
B
RB
W
100 kHz
SWT 35 ms
*
VB
W
300 kHz
*
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-4.59 dB
m
2.479735000 GH
z
2
Marker 2 [T1 ]
-34.83 dB
m
2.483500000 GH
z
3
Marker 3 [T1 ]
-38.07 dB
m
2.500000000 GH
z
4
Marker 4 [T1 ]
-33.86 dB
m
2.486095000 GH
z
D1 -24.59 dBm
Date: 25.JUL.2018 10:41:42
8DPSK/HCH/Hop
Ref 30 dBm Att 40 dB
*
*
*
Offset 10.3 dB
1P
K
VIE
W
A
LV
L
3
D
B
RB
W
100 kHz
VB
W
300 kHz
SWT 10 ms
Center 2.4835 GHz S
p
an 60 MHz6 MHz/
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
20
3
0
1
Marker 1 [T1 ]
-2.79 dB
m
2.474800000 GH
z
2
Marker 2 [T1 ]
-33.83 dB
m
2.483500000 GH
z
3
Marker 3 [T1 ]
-35.09 dB
m
2.500000000 GH
z
4
Marker 4 [T1 ]
-28.20 dB
m
2.483000000 GH
z
D1 -22.79 dBm
Date: 25.JUL.2018 12:06:03
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Report No.: CQASZ20180700073E-01
Page:62 of 107
5.9 Spurious RF Conducted Emissions
Test Requirement: 47 CFR Part 15C Section 15.247 (d)
Test Method: ANSI C63.10:2013
Test Setup:
Remark: Offset=cable loss+ attenuation factor.
Limit: In any 100 kHz bandwidth outside the frequency band in which the spread
spectrum intentional radiator is operating, the radio frequency power that is
produced by the intentional radiator shall be at least 20 dB below that in the
100 kHz bandwidth within the band that contains the highest level of the
desired power, based on either an RF conducted or a radiated
measurement.
Exploratory Test Mode: Non-hopping transmitting with all kind of modulation and all kind of data type
Final Test Mode: Through Pre-scan, find the DH5 of data type is the worst case of GFSK
modulation type, 2-DH5 of data type is the worst casH RI ʌ'436.
modulation type, 3-DH5 of data type is the worst case of 8DPSK modulation
type.
Test Results: Pass
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Report No.: CQASZ20180700073E-01
Page:63 of 107
GFSK_LCH_Graphs
Pref
A
Offset 10.4 dB
LVL
Att 40 dB
*
Ref 30 dBm
3
D
B
RB
W
100 kHz
*
VB
W
300 kHz
*
SWT 35 ms
Center 2.402 GHz S
p
an 2 MHz200 kHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-1.14 dB
m
2.401808500 GH
z
D1 -21.14 dBm
Date: 25.JUL.2018 11:04:01
Puw
A
Att 30 dB
*
Offset 10.4 dB
LV
L
Ref 30 dBm
3
D
B
RB
W
100 kHz
SWT 300 ms
*
VB
W
300 kHz
*
S
tart 30 MHz Sto
p
3G
Hz
297 MHz/
1P
K
VIE
W
-7
0
-
6
0
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
M
arker 1 [T1 ]
-2.25 dB
m
2.402287500 GH
z
2
Marker 2 [T1 ]
-22.47 dB
m
2.277547500 GH
z
D1 -21.14 dBm
Date: 25.JUL.2018 11:04:14
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Report No.: CQASZ20180700073E-01
Page:64 of 107
Ref 30 dBm Att 30 dB
*
Offset 10.4 dB
A
LVL
Start 3 GHz Sto
p
5 GHz200 MHz/
*
3
D
B
RB
W
100 kHz
SWT 200 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.55 dB
m
3.213250000 GH
z
D1 -21.14 dBm
Date: 25.JUL.2018 11:04:24
Ref 30 dBm Att 30 dB
*
Offset 10.4 dB
A
LVL
Start 5 GHz Sto
p
10 GHz500 MHz/
*
3DB
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.74 dB
m
8.406875000 GH
z
D1 -21.14 dBm
Date: 25.JUL.2018 11:04:37
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Report No.: CQASZ20180700073E-01
Page:65 of 107
Ref 30 dBm Att 30 dB
*
Offset 10.4 dB
A
LVL
Start 10 GHz Sto
p
15 GHz500 MHz/
*
3
D
B
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.58 dB
m
11.610625000 GH
z
D1 -21.14 dBm
Date: 25.JUL.2018 11:04:49
Ref 30 dBm
Offset 10.4 dB
A
LVL
Start 15 GHz Sto
p
25 GHz1GHz/
Att 35 dB
*
*
3DB
RB
W
100 kHz
SWT 1 s
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-36.91 dB
m
24.896250000 GH
z
D1 -21.14 dBm
Date: 25.JUL.2018 11:05:02
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Report No.: CQASZ20180700073E-01
Page:66 of 107
GFSK_MCH_Graphs
Pref
A
Offset 10.3 dB
LV
L
Att 40 dB
*
Ref 30 dBm
3
D
B
RB
W
100 kHz
*
VB
W
300 kHz
*
SWT 35 ms
C
enter 2
.441 GHz S
p
an 2 MHz2
00 kHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-1.46 dB
m
2.440812000 GH
z
D1 -21.46 dBm
Date: 25.JUL.2018 11:05:38
Puw
A
Att 30 dB
*
Offset 10.3 dB
LV
L
Ref 30 dBm
3
D
B
RB
W
100 kHz
SWT 300 ms
*
VB
W
300 kHz
*
Start 30 MHz Sto
p
3 GHz297 MHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-35.97 dB
m
2.444238750 GH
z
2
Marker 2 [T1 ]
-42.48 dB
m
47.820000000 MH
z
D1 -21.46 dBm
Date: 25.JUL.2018 11:05:51
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Report No.: CQASZ20180700073E-01
Page:67 of 107
Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 3 GHz Sto
p
5 GHz200 MHz/
*
3
D
B
RB
W
100 kHz
SWT 200 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.76 dB
m
3.331500000 GH
z
D1 -21.46 dBm
Date: 25.JUL.2018 11:06:02
Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 5 GHz Sto
p
10 GHz500 MHz/
*
3DB
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-41.73 dB
m
9.996875000 GH
z
D1 -21.46 dBm
Date: 25.JUL.2018 11:06:14
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:68 of 107
Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 10 GHz Sto
p
15 GHz500 MHz/
*
3
D
B
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.14 dB
m
11.260625000 GH
z
D1 -21.46 dBm
Date: 25.JUL.2018 11:06:27
Ref 30 dBm
Offset 10.3 dB
A
LVL
Start 15 GHz Sto
p
25 GHz1GHz/
Att 35 dB
*
*
3DB
RB
W
100 kHz
SWT 1 s
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-37.46 dB
m
24.988750000 GH
z
D1 -21.46 dBm
Date: 25.JUL.2018 11:06:39
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:69 of 107
GFSK_HCH_Graphs
Pref
A
Offset 10.3 dB
LV
L
Att 40 dB
*
Ref 30 dBm
3
D
B
RB
W
100 kHz
*
VB
W
300 kHz
*
SWT 35 ms
C
enter 2
.48 GHz S
p
an 2 MHz2
00 kHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-1.98 dB
m
2.479812250 GH
z
D1 -21.98 dBm
Date: 25.JUL.2018 11:07:17
Puw
A
Att 30 dB
*
Offset 10.3 dB
LV
L
Ref 30 dBm
3
D
B
RB
W
100 kHz
SWT 300 ms
*
VB
W
300 kHz
*
Start 30 MHz Sto
p
3 GHz297 MHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-30.93 dB
m
2.479136250 GH
z
2
Marker 2 [T1 ]
-36.45 dB
m
2.348456250 GH
z
D1 -21.98 dBm
Date: 25.JUL.2018 11:07:30
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:70 of 107
Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 3 GHz Sto
p
5 GHz200 MHz/
*
3
D
B
RB
W
100 kHz
SWT 200 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.83 dB
m
4.743500000 GH
z
D1 -21.98 dBm
Date: 25.JUL.2018 11:07:41
Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 5 GHz Sto
p
10 GHz500 MHz/
*
3DB
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.29 dB
m
7.719375000 GH
z
D1 -21.98 dBm
Date: 25.JUL.2018 11:07:53
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:71 of 107
Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 10 GHz Sto
p
15 GHz500 MHz/
*
3
D
B
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.08 dB
m
11.594375000 GH
z
D1 -21.98 dBm
Date: 25.JUL.2018 11:08:06
Ref 30 dBm
Offset 10.3 dB
A
LVL
Start 15 GHz Sto
p
25 GHz1GHz/
Att 35 dB
*
*
3DB
RB
W
100 kHz
SWT 1 s
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-36.82 dB
m
24.855000000 GH
z
D1 -21.98 dBm
Date: 25.JUL.2018 11:08:19
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:72 of 107
ʌ'43SK_LCH_Graphs
Pref
A
Offset 10.4 dB
LV
L
Att 40 dB
*
Ref 30 dBm
3
D
B
RB
W
100 kHz
*
VB
W
300 kHz
*
SWT 35 ms
C
enter 2
.402 GHz S
p
an 2 MHz2
00 kHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-2.13 dB
m
2.401770000 GH
z
D1 -22.13 dBm
Date: 25.JUL.2018 11:09:57
Puw
A
Att 30 dB
*
Offset 10.4 dB
LV
L
Ref 30 dBm
3
D
B
RB
W
100 kHz
SWT 300 ms
*
VB
W
300 kHz
*
Start 30 MHz Sto
p
3 GHz297 MHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-7.92 dB
m
2.401916250 GH
z
2
Marker 2 [T1 ]
-42.19 dB
m
47.820000000 MH
z
D1 -22.13 dBm
Date: 25.JUL.2018 11:10:09
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:73 of 107
Ref 30 dBm Att 30 dB
*
Offset 10.4 dB
A
LVL
Start 3 GHz Sto
p
5 GHz200 MHz/
*
3
D
B
RB
W
100 kHz
SWT 200 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.93 dB
m
3.336500000 GH
z
D1 -22.13 dBm
Date: 25.JUL.2018 11:10:20
Ref 30 dBm Att 30 dB
*
Offset 10.4 dB
A
LVL
Start 5 GHz Sto
p
10 GHz500 MHz/
*
3DB
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.13 dB
m
8.018125000 GH
z
D1 -22.13 dBm
Date: 25.JUL.2018 11:10:32
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:74 of 107
Ref 30 dBm Att 30 dB
*
Offset 10.4 dB
A
LVL
Start 10 GHz Sto
p
15 GHz500 MHz/
*
3
D
B
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.51 dB
m
11.611875000 GH
z
D1 -22.13 dBm
Date: 25.JUL.2018 11:10:44
Ref 30 dBm
Offset 10.4 dB
A
LVL
Start 15 GHz Sto
p
25 GHz1GHz/
Att 35 dB
*
*
3DB
RB
W
100 kHz
SWT 1 s
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-36.45 dB
m
24.826250000 GH
z
D1 -22.13 dBm
Date: 25.JUL.2018 11:10:57
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:75 of 107
ʌ'436.B0&+B*UDSKV
Pref
A
Offset 10.3 dB
LV
L
Att 40 dB
*
Ref 30 dBm
3
D
B
RB
W
100 kHz
*
VB
W
300 kHz
*
SWT 35 ms
C
enter 2
.441 GHz S
p
an 2 MHz2
00 kHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-2.47 dB
m
2.440773000 GH
z
D1 -22.47 dBm
Date: 25.JUL.2018 11:12:15
Puw
A
Att 30 dB
*
Offset 10.3 dB
LV
L
Ref 30 dBm
3
D
B
RB
W
100 kHz
SWT 300 ms
*
VB
W
300 kHz
*
Start 30 MHz Sto
p
3 GHz297 MHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-33.34 dB
m
2.312445000 GH
z
2
Marker 2 [T1 ]
-33.34 dB
m
2.312445000 GH
z
D1 -22.47 dBm
Date: 25.JUL.2018 11:12:28
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:76 of 107
Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 3 GHz Sto
p
5 GHz200 MHz/
*
3
D
B
RB
W
100 kHz
SWT 200 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-41.49 dB
m
3.487250000 GH
z
D1 -22.47 dBm
Date: 25.JUL.2018 11:12:38
Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 5 GHz Sto
p
10 GHz500 MHz/
*
3DB
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.66 dB
m
9.410625000 GH
z
D1 -22.47 dBm
Date: 25.JUL.2018 11:12:51
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:77 of 107
Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 10 GHz Sto
p
15 GHz500 MHz/
*
3
D
B
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-41.80 dB
m
10.433125000 GH
z
D1 -22.47 dBm
Date: 25.JUL.2018 11:13:03
Ref 30 dBm
Offset 10.3 dB
A
LVL
Start 15 GHz Sto
p
25 GHz1GHz/
Att 35 dB
*
*
3DB
RB
W
100 kHz
SWT 1 s
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-37.18 dB
m
24.961250000 GH
z
D1 -22.47 dBm
Date: 25.JUL.2018 11:13:16
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:78 of 107
ʌ'436.B+&+B*UDSKV
Pref
A
Offset 10.3 dB
LV
L
Att 40 dB
*
Ref 30 dBm
3
D
B
RB
W
100 kHz
*
VB
W
300 kHz
*
SWT 35 ms
C
enter 2
.48 GHz S
p
an 2 MHz2
00 kHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-3.02 dB
m
2.479771250 GH
z
D1 -23.02 dBm
Date: 25.JUL.2018 10:32:04
Puw
A
Att 30 dB
*
Offset 10.3 dB
LV
L
Ref 30 dBm
3
D
B
RB
W
100 kHz
SWT 300 ms
*
VB
W
300 kHz
*
Start 30 MHz Sto
p
3 GHz297 MHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-10.98 dB
m
2.479878750 GH
z
2
Marker 2 [T1 ]
-32.41 dB
m
2.348456250 GH
z
D1 -23.02 dBm
Date: 25.JUL.2018 10:32:17
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:79 of 107
Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 3 GHz Sto
p
5 GHz200 MHz/
*
3
D
B
RB
W
100 kHz
SWT 200 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-43.00 dB
m
3.112750000 GH
z
D1 -23.02 dBm
Date: 25.JUL.2018 10:32:27
Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 5 GHz Sto
p
10 GHz500 MHz/
*
3DB
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.80 dB
m
5.188125000 GH
z
D1 -23.02 dBm
Date: 25.JUL.2018 10:32:40
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:80 of 107
Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 10 GHz Sto
p
15 GHz500 MHz/
*
3
D
B
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-41.91 dB
m
11.996250000 GH
z
D1 -23.02 dBm
Date: 25.JUL.2018 10:32:52
Ref 30 dBm
Offset 10.3 dB
A
LVL
Start 15 GHz Sto
p
25 GHz1GHz/
Att 35 dB
*
*
3DB
RB
W
100 kHz
SWT 1 s
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-37.37 dB
m
24.950000000 GH
z
D1 -23.02 dBm
Date: 25.JUL.2018 10:33:04
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:81 of 107
8DPSK_LCH_Graphs
Pref
A
Offset 10.4 dB
LV
L
Att 40 dB
*
Ref 30 dBm
3
D
B
RB
W
100 kHz
*
VB
W
300 kHz
*
SWT 35 ms
C
enter 2
.402 GHz S
p
an 2 MHz2
00 kHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-2.09 dB
m
2.401796750 GH
z
D1 -22.09 dBm
Date: 25.JUL.2018 10:35:41
Puw
A
Att 30 dB
*
Offset 10.4 dB
LV
L
Ref 30 dBm
3
D
B
RB
W
100 kHz
SWT 300 ms
*
VB
W
300 kHz
*
Start 30 MHz Sto
p
3 GHz297 MHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-7.48 dB
m
2.401916250 GH
z
2
Marker 2 [T1 ]
-24.82 dB
m
2.276805000 GH
z
D1 -22.09 dBm
Date: 25.JUL.2018 10:35:54
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:82 of 107
Ref 30 dBm Att 30 dB
*
Offset 10.4 dB
A
LVL
Start 3 GHz Sto
p
5 GHz200 MHz/
*
3
D
B
RB
W
100 kHz
SWT 200 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.88 dB
m
3.260250000 GH
z
D1 -22.09 dBm
Date: 25.JUL.2018 10:36:04
Ref 30 dBm Att 30 dB
*
Offset 10.4 dB
A
LVL
Start 5 GHz Sto
p
10 GHz500 MHz/
*
3DB
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.19 dB
m
8.781250000 GH
z
D1 -22.09 dBm
Date: 25.JUL.2018 10:36:17
Shenzhen Huaxia Testin
g
Technolo
gy
Co., Ltd
Report No.: CQASZ20180700073E-01
Page:83 of 107
Ref 30 dBm Att 30 dB
*
Offset 10.4 dB
A
LVL
Start 10 GHz Sto
p
15 GHz500 MHz/
*
3
D
B
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-41.31 dB
m
12.687500000 GH
z
D1 -22.09 dBm
Date: 25.JUL.2018 10:36:29
Ref 30 dBm
Offset 10.4 dB
A
LVL
Start 15 GHz Sto
p
25 GHz1GHz/
Att 35 dB
*
*
3DB
RB
W
100 kHz
SWT 1 s
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-36.58 dB
m
24.972500000 GH
z
D1 -22.09 dBm
Date: 25.JUL.2018 10:36:42
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8DPSK_MCH_Graphs
Pref
A
Offset 10.3 dB
LV
L
Att 40 dB
*
Ref 30 dBm
3
D
B
RB
W
100 kHz
*
VB
W
300 kHz
*
SWT 35 ms
C
enter 2
.441 GHz S
p
an 2 MHz2
00 kHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-1.98 dB
m
2.440780250 GH
z
D1 -21.98 dBm
Date: 25.JUL.2018 10:38:50
Puw
A
Att 30 dB
*
Offset 10.3 dB
LV
L
Ref 30 dBm
3
D
B
RB
W
100 kHz
SWT 300 ms
*
VB
W
300 kHz
*
Start 30 MHz Sto
p
3 GHz297 MHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-8.60 dB
m
2.441268750 GH
z
2
Marker 2 [T1 ]
-41.03 dB
m
47.820000000 MH
z
D1 -21.98 dBm
Date: 25.JUL.2018 10:39:03
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Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 3 GHz Sto
p
5 GHz200 MHz/
*
3
D
B
RB
W
100 kHz
SWT 200 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-43.10 dB
m
3.012000000 GH
z
D1 -21.98 dBm
Date: 25.JUL.2018 10:39:13
Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 5 GHz Sto
p
10 GHz500 MHz/
*
3DB
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.82 dB
m
7.119375000 GH
z
D1 -21.98 dBm
Date: 25.JUL.2018 10:39:26
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Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 10 GHz Sto
p
15 GHz500 MHz/
*
3
D
B
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.03 dB
m
10.412500000 GH
z
D1 -21.98 dBm
Date: 25.JUL.2018 10:39:38
Ref 30 dBm
Offset 10.3 dB
A
LVL
Start 15 GHz Sto
p
25 GHz1GHz/
Att 35 dB
*
*
3DB
RB
W
100 kHz
SWT 1 s
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-37.35 dB
m
24.838750000 GH
z
D1 -21.98 dBm
Date: 25.JUL.2018 10:39:51
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8DPSK_HCH_Graphs
Pref
A
Offset 10.3 dB
LV
L
Att 40 dB
*
Ref 30 dBm
3
D
B
RB
W
100 kHz
*
VB
W
300 kHz
*
SWT 35 ms
C
enter 2
.48 GHz S
p
an 2 MHz2
00 kHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-2.94 dB
m
2.479780750 GH
z
D1 -22.94 dBm
Date: 25.JUL.2018 10:42:04
Puw
A
Att 30 dB
*
Offset 10.3 dB
LV
L
Ref 30 dBm
3
D
B
RB
W
100 kHz
SWT 300 ms
*
VB
W
300 kHz
*
Start 30 MHz Sto
p
3 GHz297 MHz/
1P
K
VIE
W
-7
0
-
60
-5
0
-4
0
-3
0
-2
0
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-8.57 dB
m
2.479878750 GH
z
2
Marker 2 [T1 ]
-37.75 dB
m
2.348827500 GH
z
D1 -22.94 dBm
Date: 25.JUL.2018 10:42:17
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Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 3 GHz Sto
p
5 GHz200 MHz/
*
3
D
B
RB
W
100 kHz
SWT 200 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.46 dB
m
3.547000000 GH
z
D1 -22.94 dBm
Date: 25.JUL.2018 10:42:27
Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 5 GHz Sto
p
10 GHz500 MHz/
*
3DB
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.52 dB
m
9.663750000 GH
z
D1 -22.94 dBm
Date: 25.JUL.2018 10:42:40
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Ref 30 dBm Att 30 dB
*
Offset 10.3 dB
A
LVL
Start 10 GHz Sto
p
15 GHz500 MHz/
*
3
D
B
RB
W
100 kHz
SWT 500 ms
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-42.84 dB
m
12.257500000 GH
z
D1 -22.94 dBm
Date: 25.JUL.2018 10:42:52
Ref 30 dBm
Offset 10.3 dB
A
LVL
Start 15 GHz Sto
p
25 GHz1GHz/
Att 35 dB
*
*
3DB
RB
W
100 kHz
SWT 1 s
*
VB
W
300 kHz
1P
K
VIE
W
-7
0
-
60
-5
0
-
40
-3
0
-
20
-1
0
0
1
0
2
0
3
0
1
Marker 1 [T1 ]
-36.51 dB
m
24.907500000 GH
z
D1 -22.94 dBm
Date: 25.JUL.2018 10:43:05
Remark:
Pre test 9kHz to 25GHz, find the highest point when testing, so only the worst data were shown in the test
report. Per FCC Part 15.33 (a) and 15.31 (o) ,The amplitude of spurious emissions from intentional radiators
which are attenuated more than 20 dB below the permissible value need not be reported unless specifically
required elsewhere in this part.
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5.10Other requirements Frequency Hopping Spread Spectrum System
Test Requirement: 47 CFR Part 15C Section 15.247 (a)(1), (h) requirement:
The system shall hop to channel frequencies that are selected at the system hopping
rate from a Pseudorandom ordered list of hopping frequencies. Each frequency must be used equally
on the average by each transmitter. The system receivers shall have input bandwidths that match the
hopping channel bandwidths of their corresponding transmitters and shall shift frequencies in
synchronization with the transmitted signals.
Frequency hopping spread spectrum systems are not required to employ all available hopping
channels during each transmission. However, the system, consisting of both the transmitter and the
receiver, must be designed to comply with all of the regulations in this section should the
transmitter be presented with a continuous data (or information) stream. In addition, a system
employing short transmission bursts must comply with the definition of a frequency hopping system
and must distribute its transmissions over the minimum number of hopping channels specified in
this section.
The incorporation of intelligence within a frequency hopping spread spectrum system that permits
the system to recognize other users within the spectrum band so that it individually and
independently chooses and adapts its hopsets to avoid hopping on occupied channels is permitted.
The coordination of frequency hopping systems in any other manner for the express purpose of
avoiding the simultaneous occupancy of individual hopping frequencies by multiple transmitters is
not permitted.
Compliance for section 15.247(a)(1)
According to Bluetooth Core Specification, the pseudorandom sequence may be generated in a nine-
stage shift register whose 5th and 9th stage
outputs are added in a modulo-two addition stage. And the result is fed back to the input of the first
stage. The sequence begins with the first ONE of 9 consecutive ONEs; i.e. the shift register is initialized
with nine ones.
• Number of shift register stages: 9
• Length of pseudo-random sequence: 29-1 = 511 bits
• Longest sequence of zeros: 8 (non-inverted signal)
An example of Pseudorandom Frequency Hopping Sequence as follow:
Each frequency used equally on the average by each transmitter.
According to Bluetooth Core Specification, Bluetooth receivers are designed to have input and IF
bandwidths that match the hopping channel bandwidths of any Bluetooth transmitters and shift
frequencies in synchronization with the transmitted signals.
Compliance for section 15.247(g)
According to Bluetooth Core Specification, the Bluetooth system transmits the packet with the
pseudorandom hopping frequency with a continuous data and the short burst transmission from the
Bluetooth system is also transmitted under the frequency hopping system with the pseudorandom
hopping frequency system.
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Compliance for section 15.247(h)
According to Bluetooth Core specification, the Bluetooth system incorporates with an adaptive
system to detect other user within the spectrum band so that it individually and independently to
avoid hopping on the occupied channels.
According to the Bluetooth Core specification, the Bluetooth system is designed not have the ability
to coordinated with other FHSS System in an effort to avoid the simultaneous occupancy of individual
hopping frequencies by multiple transmitter.
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5.11Radiated Spurious Emission & Restricted bands
Test Requirement: 47 CFR Part 15C Section 15.209 and 15.205
Test Method: ANSI C63.10: 2013
Test Site: Measurement Distance: 3m (Semi-Anechoic Chamber)
Receiver Setup: Frequency Detector RBW VBW Remark
0.009MHz-0.090MHz Peak 10kHz 30kHz Peak
0.009MHz-0.090MHz Average 10kHz 30kHz Average
0.090MHz-0.110MHz Quasi-peak 10kHz 30kHz Quasi-peak
0.110MHz-0.490MHz Peak 10kHz 30kHz Peak
0.110MHz-0.490MHz Average 10kHz 30kHz Average
0.490MHz -30MHz Quasi-peak 10kHz 30kHz Quasi-peak
30MHz-1GHz Peak 100 kHz 300kHz Peak
Above 1GHz Peak 1MHz 3MHz Peak
Peak 1MHz 10Hz Average
Limit: Frequency Field strength
(microvolt/meter)
Limit
(dBuV/m)Remark Measurement
distance (m)
0.009MHz-0.490MHz 2400/F(kHz) - - 300
0.490MHz-1.705MHz 24000/F(kHz) - - 30
1.705MHz-30MHz 30 - - 30
30MHz-88MHz 100 40.0 Quasi-peak 3
88MHz-216MHz 150 43.5 Quasi-peak 3
216MHz-960MHz 200 46.0 Quasi-peak 3
960MHz-1GHz 500 54.0 Quasi-peak 3
Above 1GHz 500 54.0 Average 3
Note: 15.35(b), Unless otherwise specified, the limit on peak radio frequency
emissions is 20dB above the maximum permitted average emission limit
applicable to the equipment under test. This peak limit applies to the total
peak emission level radiated by the device.
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Test Setup:
Figure 1. Below 30MHz
Figure 2. 30MHz to 1GHz Figure 3. Above 1 GHz
Test Procedure: a. 1) Below 1G: The EUT was placed on the top of a rotating table 0.8
meters above the ground at a 3 meter semi-anechoic camber. The table
was rotated 360 degrees to determine the position of the highest
radiation.
2) Above 1G: The EUT was placed on the top of a rotating table 1.5
meters above the ground at a 3 meter semi-anechoic camber. The table
was rotated 360 degrees to determine the position of the highest
radiation.
Note: For the radiated emission test above 1GHz:
Place the measurement antenna away from each area of the EUT
determined to be a source of emissions at the specified measurement
distance, while keeping the measurement antenna aimed at the source
of emissions at each frequency of significant emissions, with polarization
oriented for maximum response. The measurement antenna may have
to be higher or lower than the EUT, depending on the radiation pattern of
the emission and staying aimed at the emission source for receiving the
maximum signal. The final measurement antenna elevation shall be that
which maximizes the emissions. The measurement antenna elevation
for maximum emissions shall be restricted to a range of heights of from
1 m to 4 m above the ground or reference ground plane.
b. The EUT was set 3 meters away from the interference-receiving
antenna, which was mounted on the top of a variable-height antenna
tower.
c. The antenna height is varied from one meter to four meters above the
ground to determine the maximum value of the field strength. Both
horizontal and vertical polarizations of the antenna are set to make the
measurement.
150cm
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d. For each suspected emission, the EUT was arranged to its worst case
and then the antenna was tuned to heights from 1 meter to 4 meters (for
the test frequency of below 30MHz, the antenna was tuned to heights 1
meter) and the rotatable table was turned from 0 degrees to 360
degrees to find the maximum reading.
e. The test-receiver system was set to Peak Detect Function and Specified
Bandwidth with Maximum Hold Mode.
f. If the emission level of the EUT in peak mode was 10dB lower than the
limit specified, then testing could be stopped and the peak values of the
EUT would be reported. Otherwise the emissions that did not have 10dB
margin would be re-tested one by one using peak, quasi-peak or
average method as specified and then reported in a data sheet.
g. Test the EUT in the lowest channel (2402MHz),the middle channel
(2441MHz),the Highest channel (2480MHz)
h. The radiation measurements are performed in X, Y, Z axis positioning
for Transmitting mode, and found the X axis positioning which it is the
worst case.
i. Repeat above procedures until all frequencies measured was complete.
Exploratory Test Mode: Non-hopping transmitting mode with all kind of modulation and all kind of
data type
Transmitting mode, Charging + Transmitting mode.
Final Test Mode: Through Pre-scan, find the DH1 of data type and GFSK modulation is the
worst case.
Pretest the EUT at Transmitting mode and Charging + Transmitting mode,
found the Charging + Transmitting mode which it is worse case
For below 1GHz part, through pre-scan, the worst case is the middle
channel.
Only the worst case is recorded in the report.
Test Results: Pass
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5.11.1 Radiated Emission below 1GHz
30MHz~1GHz (PEAK)
Test mode: Charging + Transmitting mode Vertical
Remark:
The field strength is calculated by adding the Antenna Factor, Cable Factor & Preamplifier. The basic
equation with a sample calculation is as follows:
Factor= Antenna Factor + Cable Factor – Preamplifier Factor,
Level = Read Level + Factor,
Over Limit=Level-Limit Line.
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Test mode: Charging + Transmitting mode Horizontal
Remark:
The field strength is calculated by adding the Antenna Factor, Cable Factor & Preamplifier. The basic
equation with a sample calculation is as follows:
Factor= Antenna Factor + Cable Factor – Preamplifier Factor,
Level = Read Level + Factor,
Over Limit=Level-Limit Line.
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5.11.2 Transmitter Emission above 1GHz
Worse case mode: GFSK(DH5) Test channel: Lowest
Frequency Meter
Reading Factor Emission
Level Limits Over Detector
Type Ant. Pol.
(MHz) G%ȝ9 (dB) G%ȝ9P G%ȝ9P (dB) H/V
2390 53.86 -9.2 44.66 74 -29.34 Peak H
2400 55.67 -9.39 46.28 74 -27.72 Peak H
4804 53.26 -4.33 48.93 74 -25.07 Peak H
7206 49.74 1.01 50.75 74 -23.25 Peak H
2390 55.08 -9.2 45.88 74 -28.12 Peak V
2400 56.62 -9.39 47.23 74 -26.77 Peak V
4804 53.11 -4.33 48.78 74 -25.22 Peak V
7206 49.92 1.01 50.93 74 -23.07 Peak V
Worse case mode: GFSK(DH5) Test channel: Middle
Frequency Meter
Reading Factor Emission
Level Limits Over Detector
Type Ant. Pol.
(MHz) G%ȝ9 (dB) G%ȝ9P G%ȝ9P (dB) H/V
4882 51.17 -4.11 47.06 74 -26.94 peak H
7323 49.67 1.51 51.18 74 -22.82 peak H
4882 53.75 -4.11 49.64 74 -24.36 peak V
7323 50.70 1.51 52.21 74 -21.79 peak V
Worse case mode: GFSK(DH5) Test channel: Highest
Frequency Meter
Reading Factor Emission
Level Limits Over Detector
Type Ant. Pol.
(MHz) G%ȝ9 (dB) G%ȝ9P G%ȝ9P (dB) H/V
2483.5 54.89 -9.29 45.60 74 -28.40 Peak H
4960 52.86 -4.04 48.82 74 -25.18 Peak H
7440 48.85 1.57 50.42 74 -23.58 Peak H
2483.5 54.71 -9.29 45.42 74 -28.58 Peak V
4960 49.54 -4.04 45.50 74 -28.50 Peak V
7440 48.37 1.57 49.94 74 -24.06 Peak V
Remark:
1) The field strength is calculated by adding the Antenna Factor, Cable Factor & Preamplifier. The basic
equation with a sample calculation is as follows:
Final Test Level =Receiver Reading + Antenna Factor + Cable Factor – Preamplifier Factor
2) Scan from 9kHz to 25GHz, the disturbance above 10GHz and below 30MHz was very low. As shown in
this section, for frequencies above 1GHz, the field strength limits are based on average limits. However,
the peak field strength of any emission shall not exceed the maximum permitted average limits specified
above by more than 20 dB under any condition of modulation. So, only the peak measurements were
shown in the report.
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3)
6 Photographs - EUT Test Setup
6.1 Radiated Emission
9KHz~30MHz:
30MHz~1GHz:
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Above 1GHz:
6.2 Conducted Emission
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7 Photographs - EUT Constructional Details
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The End
Download: SC-190 Bluetooth speaker Test Report 1 Sound Crush
Mirror Download [FCC.gov]SC-190 Bluetooth speaker Test Report 1 Sound Crush
Document ID3948183
Application IDk6I4oVs2EFrD9pSPLZ1YNQ==
Document Description14_SC-190 TestRpt r1
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeTest Report
Display FormatAdobe Acrobat PDF - pdf
Filesize342.17kB (4277166 bits)
Date Submitted2018-08-02 00:00:00
Date Available2018-08-02 00:00:00
Creation Date2018-07-30 17:27:08
Producing SoftwareAcrobat Distiller 18.0 (Windows)
Document Lastmod2018-07-30 17:27:08
Document TitleTest Report 1
Document CreatorAcrobat PDFMaker 18 Word 版

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